NL1040236C2 - TUNNEL SETUP. - Google Patents

Abstract

Tunnel arrangement (1) comprising a tunnel tube (2) having a tunnel floor (5) and one or more substantially water-impermeable tunnel portals (3) that run upwardly inclined from a lower end situated near the tunnel floor (5) to an upper end (7a), wherein the tunnel is placed in a soil, in which soil a poorly permeable or impermeable layer is present, such that the tunnel floor (5) extends into or deeper than the poorly permeable or impermeable layer, wherein confined water, in particular artesian water, is present below the poorly permeable or impermeable layer, wherein near the upper end (7a) of the tunnel portal (3) a water discharging drainage duct (14) is arranged, preferably extending transverse to the tunnel portal (3), which duct (14) is provided with at least one first passage (24) situated in the soil for receiving the confined water from the soil.

Description

NL 1040236 Tunnel arrangement

BACKGROUND OF THE INVENTION

The invention relates to a tunnel arrangement. With a tunnel arrangement is meant a work of art with a tunnel formed by a recessed road, whether or not covered by a deck, and subsequent, box-shaped access roads. An example of a sunken road covered by a deck is an underpass under, for example, a railroad, a river or a canal or canal (aqueduct). An example of an uncovered sunken road is a container, such as can be found on the A27 near Utrecht. Such works of art are usually made from prefabricated concrete elements or concrete poured in situ. The horizontal and vertical concrete walls of the tunnel and access roads are impervious to water.

Water management deserves special attention when designing the tunnel construction. For the drainage of rainwater falling on the access roads, transverse gutters and water cellars connected thereto are provided at the location between the access points and tunnel bottom, in which the water flowing from the access points is received and from which it is subsequently pumped away to open water or sewer.

The soil in which the tunnel is installed can contain poorly permeable and / or impermeable layers. It is then possible for the tunnel bottom and adjacent parts of the access roads to reach therein or therethrough and be in contact with groundwater that has a rising height that is higher than the upper end of the access roads. That groundwater is also referred to as stress water. When the altitude is higher than the surface level, there is artesian water.

The tunnel bottom and adjacent parts disturb the integrity of the poorly permeable or impermeable layer and form upward leakage paths for the (semi) stress water along the outer surface. A part of it can dodge upwards along the underside of the round trips to the surroundings of the top end of the round trips. A road surface usually connects there which is in itself poorly permeable or impermeable, as is the case, for example, with dense asphalt concrete. The pressure that the stress water exerts on the road surface can lead to cracks therein. It is thereby possible that upwardly flowing water forms ice on the road surface and on the road during frost periods, which is dangerous for the users. Avoidance to the verges, so that faeces can already be produced, is hardly possible in the case of clay layers there and / or because of the location of the access to the access area, which is often sunk relative to the ground level.

SUMMARY OF THE INVENTION

An object of the invention is to provide a tunnel arrangement of the type mentioned in the preamble in which said problems with evasive stress water can be reduced.

To this end, the invention provides, from one aspect, a tunnel arrangement comprising a tunnel trough with a tunnel bottom and one or more from a bottom end located at the bottom of the tunnel to a top end, inclined, substantially water-impermeable tunnel accesses, the tunnel being placed in a bottom, which bottom is present with a poorly permeable or impermeable layer, such that the tunnel bottom reaches into or deeper than the poorly permeable or impermeable layer, where under the badly permeable or impermeable layer there is tension water, in particular artesian water, where near the upper end of the tunnel access is provided with a water-draining discharge channel, preferably extending transversely to the access channel, which channel is provided with at least one first passage located in the bottom or opening for receiving stress water from the bottom. As a result, at the location of the transition between access and road surface, the stress water is provided with a possibility of evasion, via the first passage and the channel, so that a high pressure build-up against the underside of a tunnel connecting to the upper end of the tunnel access, in particular in a simple manner, is provided. Mainly water-impermeable road surface can be prevented. In addition, ice formation on the access road as a result of stress water flowing on the access roads during frost periods on the access roads is prevented.

The discharge channel can be situated above an edge of a baffle plate which, with a bearing edge, rests on a bearing edge at the upper end of the tunnel entrance.

In an efficient embodiment, the drain channel is channel-shaped and provided with at least one second passage for receiving rainwater, whereby two functions can be combined. The second passages can for instance be provided with a grid-shaped cover, as is known from drainage troughs in pavements. The lid can be detachable for inspection purposes and cleaning.

If the drain channel has a bottom and side walls and the first passage is arranged a side wall above the channel bottom, the first passage will be able to remain free for a long time from dirt that has been entrained with rainwater into the drain.

To prevent ingress of soil particles into the discharge channel, a filter can be provided for filtering water incoming through the first passage. The filter can be part of a replaceable filter insert. The filter insert may comprise a filter cloth, for example PF90 from Aquaflow ®.

The tunnel and accesses can have substantially impermeable side walls.

In one embodiment, the tunnel box is tubular. In another embodiment, the tunnel trough is open at the top, like a sunken road.

The tunnel arrangement is particularly suitable for applications for local agricultural and / or bicycle traffic.

From a further aspect the invention provides a gutter provided with a bottom wall, two side walls and an upper wall, wherein at least one side wall is provided with at least one first passage for receiving groundwater and the upper wall is provided with at least one second passage for receiving rainwater. The top wall can form a detachable cover, as noted above. The trough can be provided with a filter for filtering water incoming through the first passage. The filter can be part of a replaceable filter insert. The filter insert may comprise a filter cloth, for example PF90 from Aquaflow®.

It is noted that an insert for a street gully is shown in JP 2002-276012, with an upper wall provided with water passage openings and a bottomless tube extending downwards thereof, the wall of which is provided with drainage holes.

The aspects and measures described in this description and claims of the application and / or shown in the drawings of this application can, where possible, also be applied separately from each other. These individual aspects can be the subject of split-off patent applications that are aimed at this. This applies in particular to the

measures and aspects which are described per se in the subclaims. BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be elucidated on the basis of an exemplary embodiment shown in the accompanying drawings. Shown is:

Figure 1 shows a schematic vertical longitudinal section through an exemplary embodiment of a tunnel arrangement according to the invention;

Figure 2 shows a detail II of Figure 1; and

Figure 3 shows a cross-section through a gutter in the tunnel arrangement of Figure 1.

DETAILED DESCRIPTION OF THE DRAWINGS

The tunnel arrangement 1 of figure 1 comprises a tunnel tube 2 and two access troughs 3, which connect to road surfaces 4. The tunnel tube 2 has a bottom 5, side walls 6 and deck 18 and is made of concrete in situ. The access bins 3 have an access floor 7 and two side walls 8 and are also made of concrete in situ. The tunnel tube 2 and the access bins 3 form a watertight bin. Between the tunnel bottom 5 and the lower ends of the access bottoms 7 are located transverse gutters 9, which can collect rainwater flowing in direction A and deliver it to water cellars / pump pits 10, where pumps are provided for further drainage of that water.

It can be seen that the soil / soil 100 in which the tunnel arrangement is arranged is multi-layered, namely with a sand layer 101, a water-impervious clay layer 102 and a sand layer 103. On the sand layer 103 there is provided a road foundation of crushed stone 11 on which a road surface of densely closed asphalt concrete 12 has been applied, at ground level 104.

Due to the sealing clay layer 102, there is stress water in the sand layer 101, namely, as schematically indicated with monitoring well 50, artesian water whose rise height P is above ground level 104.

The tunnel tube 2 extends below the clay layer 102, which is interrupted thereby, as a result of which leakage paths have been created. As a result, tension water will be able to move along the lower end, direction B, to the upper end 7a (Figure 2) of the access floors 7 and there cause damage to the road surface, at least in known arrangements, as well as to drain off the access roads and to form ice thereon during frost periods. .

As shown in Figure 2, the upper edge 7a of the access floor 7 is provided with a supporting edge 15 for a baffle plate 13, known per se. What is new is that between the edge 7a and the road surface 4, above the bumper plate 13a, a transverse gutter 14 according to the invention is arranged.

This transverse gutter 14, see figure 3, comprises a bottom 20, side walls 21 and end walls (not shown). These walls can be made of PE sheet material. In one end wall there is a discharge opening for connection to a sewer pipe, not shown, which leads to the water cellar / pump sump 10. The top wall 22 is a lockable, detachable, grid-shaped cover 22 with through-going slots 25 and rests on supports 23 which are fixed to the side walls 21. Holes 24 are provided in the side walls 21. Detachable filter inserts 26 are provided on the inside of the side walls 21, comprising two plates 26a, b with meshed holes 27, which are aligned with holes 24. Between the plates 26a, b a filter cloth 28 PF90 is placed. The plates 26a, b are connected to each other in a foldable manner in order to be able to clean the filter cloth 28 and possibly replace it. To this end, the filter inserts 26 are detachably snapped into place by means of snap tongues 29 and spheres 30.

Arranged between the trough 14 and the edge 7a is, at the top, a strip of sealing kit 16, which seals up a leakage path for stress water beyond the holes 24. To further prevent this leakage path, the trough 14 is provided on the side wall 21, which faces towards the edge, at the top, with a laterally outwardly projecting rib or strip 17. This strip closes the leakage path upwards, so that in the area there above the holes 24 an increase in the water pressure can occur, and the stress water will follow the path of the least resistance, that is through the holes 24.

As indicated in Figures 2 and 3, the stress water arriving in direction B along the riser edge 13a, direction E, and through the holes 24 located therein opening therein, can flow into directions D in direction D and then in direction F to the drain. Rainwater on the road surface 4 can also flow in the direction C to and via openings 25 in the gutter 14. A dual purpose is thus achieved, namely that a high pressure build-up under the layer 12 is prevented, and also water flow from the road surface 12 to the access floor.

The above description is included to illustrate the operation of preferred embodiments of the invention, and not to limit the scope of the invention. Starting from the above explanation, many variations will be apparent to those skilled in the art that fall within the spirit and scope of the present invention.

Claims (18)

A tunnel arrangement comprising a tunnel trough with a tunnel bottom and one or more from a bottom end located at the bottom of the tunnel to an upper end sloping, substantially water-impermeable tunnel accesses, wherein the tunnel is placed in a bottom, in which bottom there is a poorly permeable or impermeable layer, such that the tunnel bottom reaches into or deeper than the poorly permeable or impermeable layer, where under the badly permeable or impermeable layer there is tension water, in particular artesian water, whereby near the upper end of the tunnel access a water-draining, preferably transversely a discharge channel extending on the access line is provided, which channel is provided with at least one first passage located in the bottom for receiving stress water from the bottom. Tunnel arrangement according to claim 1, wherein the discharge channel is situated above an edge of a baffle plate, which rests with the support edge on a support edge at the upper end of the tunnel access. Tunnel arrangement according to claim 1 or 2, wherein the discharge channel on the side remote from the tunnel entrance borders a substantially water-impermeable road surface. Tunnel arrangement according to one of the preceding claims, wherein the drain channel is channel-shaped and is provided with at least one second passage for receiving rainwater. Tunnel arrangement as claimed in any of the foregoing claims, wherein the discharge channel has a bottom and side walls and the first passage is arranged a side wall above the channel bottom. Tunnel arrangement according to one of the preceding claims, provided with a filter for filtering water entering through the first passage. Tunnel arrangement according to claim 6, wherein the filter forms part of a replaceable filter insert. Tunnel arrangement according to claim 7, wherein the filter insert comprises a filter cloth. Tunnel arrangement according to one of the preceding claims, wherein the tunnel and access roads have substantially impermeable side walls. Tunnel arrangement according to one of the preceding claims, wherein the tunnel trough is tubular. Tunnel arrangement according to any one of claims 1-9, wherein the tunnel trough is open at the top. Tunnel arrangement as claimed in any of the foregoing claims, adapted for local agricultural and / or bicycle traffic. 13. Gutter provided with a bottom wall, two side walls and an upper wall, wherein at least one side wall is provided with at least one first passage for receiving groundwater and the upper wall is provided with at least one second passage for receiving rainwater. 14. Gutter as claimed in claim 13, provided with a filter for filtering water incoming through the first passage. The trough of claim 14, wherein the filter is part of a replaceable filter insert. The trough of claim 15, wherein the filter insert comprises a filter cloth. 17. Tunnel arrangement provided with one or more of the characterizing measures described in the attached description and / or shown in the attached drawings. 18. Gutter provided with one or more of the characterizing measures described in the attached description and / or shown in the attached drawings.